DE60114517T2 - INFRARED-SENSITIVE COATING LIQUID - Google Patents

Abstract

There are provided a coating liquid for providing an infrared sensitive layer on a photosensitive resin surface, which is obtained by dissolving or dispersing in a specific ester solvent a binder polymer soluble in the solvent, an infrared absorbing substance and, if desired, a non-infrared opaque substance, and a process for obtaining a seamless photosensitive resin sleeve printing plate, which comprises using the same. In a photosensitive structure for a flexographic printing plate suitable for a plate making process comprising directly image-drawing with an infrared laser, the infrared sensitive coating liquid in accordance with the present invention is effective for obtaining a seamless photosensitive printing plate superior in ink coverage with advantages such that an infrared sensitive layer can be formed without any fault such as pinholes even on a photosensitive resin surface having a roughness caused by polishing with a grinder, repeat use of a squeegee rubber can be made possible in the case of carrying out a coating with a ring coater as a means for coating an infrared sensitive coating liquid, a work environment in a coating step of providing an infrared sensitive layer can be improved, the risk of an ignition explosion can be reduced, and moreover a roughness of a photosensitive resin surface caused by polishing with a grinder can be mitigated.

Description

TECHNICAL AREA

The The present invention relates to a coating liquid for forming an infrared-sensitive removable by an infrared laser Layer, wherein the coating liquid for forming a flexographic printing plate is used for a plate-making method is suitable, which is direct drawing an image of digitized information by an infrared laser without using a negative film, and further relates to a method of obtaining a seamless sleeve printing plate photosensitive resin containing the use of the coating liquid includes.

STATE OF THE ART

As in JP-A-55 48 744 and JP-A-5 134 440, it is common that a common Flexographic printing plate is formed in such a way that a photosensitive Elastomer composition is used and an image exposure is subjected to a negative film and the unexposed part is washed away. When the printing plate thus obtained for printing is used, it is mounted on a printing cylinder and at This opportunity will take a lot of time for the work to be done in to fix a precisely determined position, needed and it is therefore desirable to simplify the process or, if possible, eliminate it.

To it is customary for this purpose that one Printing plate processed before the image exposure to a sleeve shape becomes. However, in this case, it is necessary that a is to print without interruption continuing pattern is it required that a natural Plate such as photosensitive resin around a cuff or The like is wound and then a suture in the plate is treated to disappear.

When Method of obtaining a seamless printing plate in cuff form a method was used after which a plate-like photosensitive Resin is wound around a cuff or the like, a similar thereto liquid Resin or a photosensitive elastomer composition in a solvent is released for use as an adhesive for joining the seam and scraping a bump formed on the suture, for example will be to make it seamless. However, there are technical skills and one long time to complete one work and it is still difficult the seam completely disappear and it was therefore desired to have a procedure for easy Get one completely develop seamless printing plate.

When a method of obtaining a completely seamless plate in cuff form a method was used after which a plate-like photosensitive Resin is wrapped around a cuff, followed by heating up a temperature of at least the softening temperature of the photosensitive resin and disappearance of the seam and successively followed by polishing the surface with a grinding machine, creating a high-precision, seamless, photosensitive Resin layer is obtained. According to the procedure it was made possible a high-precision, to obtain seamless, photosensitive resin layer in cuff form. However, a seamless printing plate has never been obtained since a negative film having the above-mentioned photosensitive resin layer in cuff form, followed by exposure, itself the ends of the negative film overlap each other and as a result a figure with different height on this part of himself resulting pressure plate occurs.

In In recent years, as in JP-A-8 305 030 and JP-A-9 166 875 discloses a method according to which an infrared sensitive Layer which is removable by an infrared laser and which is the property of exclusion has non-infrared rays on the surface of a photosensitive resin provided and a mask is through Imaging with an infrared laser formed followed by the successive Image exposure through the mask, development and drying, whereby a printing plate can be obtained.

through such technology has also been attempted to provide a seamless, infrared-sensitive layer on a seamless, photosensitive Provided resin layer and a mask using a Infrared laser is formed, followed by the image exposure the mask, developing and drying to get a seamless Printing plate.

In this case, to provide the infrared-sensitive layer by an infrared laser can be removed and has the property of shielding non-infrared rays, applied to the photosensitive resin layer a method comprising coating a solution containing a component capable of constituting the infrared-sensitive layer.

The with a grinding machine polished, photosensitive resin surface facing but roughness and therefore there is such a problem that easy Mistakes like very small holes occur when an infrared-sensitive coating solution on the surface is applied. Further, there is the problem that the color saturation due to printing the roughness gets worse.

If those in the above Literature disclosed infrared-sensitive composition as its solution being used becomes common an organic solvent such as toluene used as a solvent. Therefore, there is also such a problem that in the case where a ring coater for forming the coating of the infrared-sensitive layer the photosensitive resin layer is used, the squeegee rubber the ring coating device by the action of the solvent is exposed to strong swelling deformation and as a result of squeegee rubber must be renewed with each coating.

Farther contaminates that disclosed in the literature cited above solvent the working environment and is at risk of fire and one Accompanied explosion and therefore becomes a highly safe solvent desired.

Accordingly was developing a coating liquid which is an infrared sensitive layer without the appearance of mistakes such as very small holes themselves on the photosensitive resin with a rough surface, the caused by polishing with a grinding machine to form can and only a small one Effect on the swelling of rubber on has points and highly secure and further developing a method for obtaining a seamless sleeve printing plate made of photosensitive resin with superior saturation desired.

DISCLOSURE OF THE INVENTION

The The present invention provides a method for obtaining a seamless one Photosensitive resin sleeve printing plate prepared according to the mentioned above Problems of the prior art can be solved. That is, the The present invention provides a method of obtaining a seamless sleeve printing plate made of photosensitive resin superior in their color saturation is, according to the one Infrared-sensitive layer without defects such as very small holes itself on a photosensitive resin surface with one by polishing roughness caused by a grinder, repeated use a squeegee rubber in the case of performing a coating with a ring coating device as a means for coating a infrared-sensitive coating liquid can be made possible the working environment in a coating step for application an infrared-sensitive layer can be improved, the Risk of an ignition explosion can be reduced and continue by polishing with a Grinder caused roughness of a photosensitive resin surface tempered can be.

The inventors have made extensive investigations for solving the above-mentioned problem, and as a result, it has been found that, when dissolving or dispersing a binder polymer soluble in a solvent defined below, an infrared absorbing substance and, if desired, a non-infrared opaque substance in a solvent which comprises an ester solvent represented by the general formula (A), available liquid is used as the infrared-sensitive coating liquid, thereby solving the above-mentioned problems, and as a result, the present invention has been achieved. R ¹ COOR ² (A)

In the formula, R ^{1 is} CH ₃ or C ₂ H ₅ and R ² is an alkyl group represented by -C _n H _{2n + 1} wherein n is an integer of 6 to 10, one represented by -C ₆ H ₁₀ X. substituted or unsubstituted cycloalkyl group wherein X is H or an alkyl group having 1 to 4 carbon atoms, an aralkyl group represented by -C _n H _2n Ar, wherein Ar is an aromatic group and n is 1 or 2, or a - (C _n H _2n O) _a C _m H _{2m + 1} represented alkoxypolyoxyalkylenyl group, wherein n is an integer of 2 to 6, m is an integer of 1 to 4 and a is 1 or 2, provided that a / (na + m) ≦ ¼.

The is called, The present invention provides a coating liquid for providing an infrared sensitive layer on the surface of a photosensitive resin by dissolving or dispersing a in the solvent soluble Binder polymer, an infrared absorbing substance and if desired a non-infrared opaque Substance in a special solvent of the ester type, and a method of obtaining a Photosensitive resin sleeve printing plate ready to use the coating liquid includes.

BEST MODE OF PERFORMANCE THE INVENTION

The The present invention will be explained in detail as follows.

The coating liquid according to the present Invention is an infrared-sensitive coating liquid, the one non-infrared impermeable Layer that is removable by an infrared laser and by loosening or dispersing one in the solvent soluble Binder polymer, an infrared absorbing substance and if desired a non-infrared impermeable substance in a special solvent of the ester type is obtained. The infrared-absorbing substance Can also be used as a non-infrared impermeable substance be used. Dependent on Of the required properties, the coating liquid Additives such as surfactants, dispersants and anti-foaming agents contain.

The mean non-infrared rays in the present invention electromagnetic waves with a different wavelength range as the infrared rays and close ultraviolet rays and visible rays having a wavelength of at most about 750 nm. The non-infrared opaque Property means the property for non-infrared rays impermeable or essentially impermeable to be.

The represented by the general formula (A) and present Invention as a solvent of infrared-sensitive coating liquid used compound is an acetic acid or propionic acid ester and specific examples thereof are heptyl acetate, 2-ethylhexyl acetate, 3,5,5-trimethylhexylacetate, heptylpropionate, 2-ethylhexylpropionate, Cyclohexyl acetate, ethylcyclohexyl acetate, t-butyl cyclohexyl acetate, cyclohexyl propionate, Benzyl acetate, benzyl propionate, 2-phenylethyl acetate, 3-methoxybutyl acetate, 3-methoxybutyl propionate, 3-methoxy-3-methylbutyl acetate, 2-butoxyethyl acetate, 2-butoxybutyl acetate, 4-butoxybutyl acetate and 4- (4'-methoxybutoxy) butyl acetate. These solvents are characterized in that the Infrared-sensitive layer without defects such as very small holes itself on the rough caused by polishing with a grinder surface can be formed as these solvents a superior Wetting property opposite a photosensitive flexographic printing resin and a suitable solubility for one Have layer of the photosensitive resin.

Further can the above solvent used alone or when they are used can two or more above solvent may be combined and allowed to use either during an isomer produced in an industrial production step, such as For example, contain nonyl acetate. It is also allowed to enter other solvent as the above in a proportion of at most 50% by weight, for example from 1 to 50% by weight.

Among them, an ester solvent represented by a general formula (B) is particularly superior because, when used, the dispersion stability of the infrared absorbing substance becomes satisfactory, the smell of the coating liquid is so weak that it makes the working environment favorable, and further its flash point high, so the risk of fire or explosion is small. CH ₃ COOR ³ (B)

In the formula, R ^{3 is} an alkoxyalkylenyl group represented by -C _n H _2n OC _m H _{2m + 1} wherein n is an integer of 2 to 6 and m is an integer of 1 to 4.

As the binder polymer of the infrared-sensitive coating liquid according to the present invention, those soluble in the above-mentioned ester solvent are used which are desirably superior in their bonding property to the photosensitive layer and which further hardly show stickiness when they are bonded to the photosensitive resin. Specific case Of these, thermoplastic elastomers such as styrene-butadiene-styrene block copolymer and styrene-isoprene-styrene block copolymer which can be obtained by polymerizing a monovinyl-substituted aromatic hydrocarbon with a conjugated diene, cellulose derivatives such as ethyl cellulose and hydroxyalkyl cellulose, polyester and polyvinyl chloride.

Under These are from the point of view that every kind of developer is responsible for the step the washing off of unexposed parts in both the infrared-sensitive Layer as well as the photosensitive resin layer can be selected can, in particular the thermoplastic elastomers by Polymerizing a monovinyl-substituted aromatic hydrocarbon obtained with a conjugated diene, particularly preferred.

Of the Proportion of the binder polymer in the infrared-sensitive layer can be determined within a range where the sensitivity to achieve removal with an infrared laser to be used can be ensured and for the infrared sensitive Layer required film strength can be ensured. The binder polymer may be present in a proportion of 40 to 90% by weight, more preferably from 55 to 75% by weight.

When to be used in combination with the binder infrared-absorbing Substance can be either a single substance or a compound with intense absorption within a wavelength range usually from 750 to 2000 nm. Examples of these are inorganic Pigments such as carbon black, Graphite, copper chromite and chromium oxide and colorants such as polyphthalocyanine compounds, Cyanine colors, chroconium colors and metal thiolate colors. Such infrared-sensitive, absorbing substance can within a Be added to the range in which a sensitivity to achieve the Removal mediated with an infrared laser beam to be used can be. In general, the infrared-absorbing substance in an amount of 5 to 60% by weight, more preferably 25 to 45% by weight added to the total weight of the infrared-sensitive layer become.

When non-infrared opaque Substance can the ultraviolet rays are reflective or absorbent used become. Preferred examples thereof are ultraviolet ray absorbers, Soot and Graphite and its amount to be added can be determined so that the desired optical Density is achieved. In general, the non-infrared impermeable substance be added so that a optical density of at least 2.0, preferably at least 3.0 is reached. It is, by the way allows the infrared absorbing substance and the non-infrared impermeable substance they are the same.

Of the Infrared-sensitive coating liquid can be used according to the present invention high molecular weight nonionic surfactants and dispersants such as phosphoric acid ester of polyoxyethylene alkyl ether for improving dispersibility the infrared-absorbing substance and the non-infrared-shielding substance to a solution be added.

Of the Infrared-sensitive coating liquid can be used according to the present invention defoamers such as silicones, long chain alcohols, aliphatic esters and Metal soaps are added to prevent the formation of bubbles, if the coating liquid from a jar into one another is poured or around the bubbles formed within a short period of time to destroy.

Of the Infrared-sensitive coating liquid can be used according to the present invention Surfactants such as perfluoroalkyl compounds for improving flow properties the coating liquid on the photosensitive resin with a by polishing with a Grinder caused rough surface to be added.

The Total concentration of the other ingredients than the solvent in the infrared-sensitive coating liquid according to the present invention Invention is common from 2 to 40% by weight and the ingredients are in the solvent solved or dispersed.

To the Producing the infrared-sensitive coating liquid is a process in which the solvent is added directly to the binder polymer, the infrared-absorbing substance and non-infrared-impermeable substance added be followed by forced stirring with a stirring blade, Dispersing with a ball mill, Stir, that of a supersonic wave Use or a combination thereof and a procedure effective applied, in which the binder polymer, the infrared-absorbing Substance and non-infrared impermeable substance be kneaded by means of an extruder or a kneader, followed by Loosen in the solvent.

Besides that is it is recommended after completion of the Mixing solid materials including dusts, foreign materials and dispersion residues using, for example, a candle filter. It is desired to use a filter with a fineness of about 1 micron.

The seamless sleeve printing plate made of photosensitive resin can over a Step of using the infrared-sensitive coating liquid forming a seamless infrared-sensitive layer on the surface a seamlessly formed cuff made of photosensitive resin to be obtained.

One Method of forming the infrared sensitive layer on the surface of the For example, photosensitive resin cuff can be made that the infrared-sensitive coating liquid directly on the surface of Cuff made of photosensitive resin is applied or previously Film of the infrared-sensitive coating liquid formed and then on the surface of the Cuff made of photosensitive resin is laminated.

When Means for directly coating the infrared-sensitive coating liquid on the surface The photosensitive resin cuff, for example, becomes a Ring coating device, spray coating device, Brush application, dip drawing and roller coating individually mentioned.

When Means for laminating a previously infrared-sensitive one coating liquid formed film on the surface The photosensitive resin sleeve comprises cylindrical winding of the infrared-sensitive film around the surface of the photosensitive cuff Resin in the circumferential direction and thereby carrying out a lamination and Remove only part of the seam where the film overlaps. From the point of view of processability it is recommended that first the entire infrared coating liquid on a cover of polyester, polypropylene, etc. applied thereto to form a film becomes the film associated with the cover for performing the Lamination is wound around the photosensitive resin surface and then the Cover to run the transfer of the Films is removed, whereby the infrared-sensitive layer on the photosensitive resin layer can be formed. The removal For example, part of the seam where the film overlaps may be through a tear-off process of the overlapping Film part, a method of suction application to it, a method of blowing with compressed air or a method of rubbing with a brush be performed.

Although the thickness of the infrared-sensitive layer should be determined in consideration of the sensitivity for achieving removal by means of an infrared laser and shielding of the non-infrared rays, it is within a range of usually 0.1 to 20 g / m ² , preferably 1 set to 5 g / m ² .

The Seamless cuff made of photosensitive resin can usually by winding and fastening an optional case with a carrier film provided photosensitive resin sheet around a sleeve, followed from heating to a temperature at least the softening point of the photosensitive resin while welding the seam, one by one followed by polishing with a grinder to make the seam disappear completely while leaving the accuracy of the photosensitive Increase cuff, to be obtained.

A surface The thus obtained photosensitive resin cuff has due to of polishing with a grinder a roughness on and As a result, it may happen that the color saturation when printing in dependence from the roughness level gets worse and when the infrared sensitive coating liquid directly on the rough surface is applied, mistakes such as squeezing and very small holes easily occur on the coated infrared-sensitive layer.

A effective measure is the provision of a treatment to mitigate the roughness of the photosensitive resin surface between the step of Polishing with a grinder and the step of getting the infrared-sensitive layer. The treatment of the photosensitive Resin surface can by providing a step of treating the photosensitive resin surface with a solvent with a solubility for the photosensitive resin or a heating step to at least the Temperature of the softening point of the photosensitive resin can be performed.

The solvent used to treat the photosensitive resin surface includes the one, the one solubility for the have photosensitive resin and on the photosensitive Resin surface one Cause stickiness when the solvent on the photosensitive Resin is applied.

specific Examples of the solvent with a solubility for the Photosensitive resins are chlorine solvents such as tetrachlorethylene and 1,1,1-trichloroethane, conventional Developing solvent for one Flexographic printing plate such as diethylene glycol dimethyl ether, diethylene glycol dibutyl ether, 2-butoxyethyl acetate, 3,5,5-trimethylhexyl acetate and ethyloctanoate, which are disclosed in EP-0 355 789, p-menthane, borneol and D- or L-limonene disclosed in JP-A-62nd No. 160,446, hydrogenated ones disclosed in JP-A-2 7056 Petroleum fractions, terpenes disclosed in JP-A-2 255 385, and Phenylacetate, phenylpropionate, benzylacetate, 3-methoxybutylacetate and butyl acetate diglycol disclosed in JP-A-4 018 564, Toluene, ethyl acetate and methyl ethyl ketone. These can be alone or in a mixture thereof.

In Considering the fact that in dependence on the type of solvent with a solubility for the photosensitive Resin and the treatment process of the disk surface scratch caused by wiping, it is the solvent with another solvent without solubility for the photosensitive resin such as ethanol, isopropyl alcohol and acetone in an amount ranging from 1 to 90% by weight.

A surface treatment of the photosensitive resin in the present invention according to for example a method in which the surface of the photosensitive Resin with one with the solvent with a solubility for the photosensitive resin impregnated Cloth is wiped, a method in which the cuff in the solvent is dipped or carried out a process in which the solvent on the surface of the photosensitive resin by means of, for example, a ring coater or a spray coater is applied.

If the surface treatment of the photosensitive resin by the wiping method with a the solvent soaked Cloth performed it can happen that one scratch caused by wiping, and it is recommended therefore, a solvent with a low boiling point such as ethyl acetate, toluene and Methyl ethyl ketone as a solvent with a solubility for the photosensitive resin or a mixture thereof with a solvent without solubility for the to use photosensitive resin.

The surface treatments according to the method of dipping the cuff in the solvent and the method of applying the solvent to the surface of the photosensitive resin are useful because such a treatment without contact with the surface of the photosensitive resin can be carried out. preferred Examples of the solvent with a solubility for the photosensitive resin suitably used for these methods can be are those with a high boiling point such as 3-methoxybutyl acetate, Butyl acetate diglycol, diethylene glycol dimethyl ether, 3,5,5-trimethylhexyl acetate and D or L limonene. Of these, alkoxypolyoxyalkylenyl esters such as 3-Methoxybutylacetat and Butylacetatdiglykol, the smell mild are particularly preferred from the point of view of the working environment.

The Photosensitive resin sleeve printing plate according to the present invention Invention is the invention by laminating the photosensitive resin on, for example, a nickel sleeve, a plastic sleeve and fiberglass sleeve, which are commonly used as a cuff in flexographic printing obtained becomes.

It is allowed on the cuff one removable from the cuff backing provided. In such a case, a printed sleeve-like Flexographic printing structure are removed together with the carrier. This comes the reuse of the cuff located.

If desired, it is allowed to have a cushioning layer such as a urethane foam between the top of the cuff or the carrier layer and the photosensitive resin layer. It is next if desired allows an adhesive layer between the support layer, the photosensitive Layer and the damping layer provided.

When Photosensitive resin used in the present invention can the for Flexographic printing plates known to be used. Generally speaking, the resin comprises a binder polymer, at least one ethylenically unsaturated Monomer and a photoinitiator. The resin can depend on from the for the photosensitive resin layer required properties more additives such as a sensitizer, a thermal polymerization inhibitor, a plasticizer and a colorant.

A typical example used as the binder polymer of the photosensitive resin layer a thermoplastic elastomer obtained by polymerizing a monovinyl-substituted aromatic hydrocarbon monomer and a conjugated diene monomer. Examples of the monovinyl-substituted aromatic hydrocarbon monomer to be used are styrene, α-methylstyrene, p-methylstyrene and p-methoxystyrene; examples of the conjugated diene monomer to be used are butadiene and isoprene, and typical examples of the polymer are styrene-butadiene-styrene block copolymer and styrene-isoprene styrene block copolymer.

At least an ethylenically unsaturated Monomer closes those compatible with the binder polymer and examples thereof are esters of an alcohol such as t-butyl alcohol and lauryl alcohol with acrylic acid or methacrylic acid, Maleimide derivatives such as laurylmaleimide, cyclohexylmaleimide and Benzyl maleimide, esters of an alcohol with fumaric acid such as dioctyl fumarate and esters of a polyhydric alcohol with acrylic acid or methacrylic acid such as such as hexanediol di (meth) acrylate, nonanediol di (meth) acrylate and trimethylolpropane tri (meth) acrylate.

Of the Photoinitiator can be made from conventional Polymerization initiators including aromatic ketones such as benzophenone and benzoin ethers such as benzoin methyl ether, benzoin ethyl ether, Benzoin isopropyl ether, α-methylolbenzoin methyl ether, α-methoxybenzoin methyl ether and 2,2-diethoxyphenylacetophenone. These can too used in combination thereof.

The Photosensitive resin layer can be prepared in various manners become. For example, when used in the above-mentioned composition the materials to be mixed in a suitable solvent such as chloroform, tetrachlorethylene, methyl ethyl ketone and toluene solved, whereby the mixing is carried out with each other, and the resulting resulting solution is poured onto a mold, followed by evaporation of the solvent and thereby forming a plate. Optionally, the materials become without a solvent to be kneaded with a kneader or a roll mill and then by means of an extruder, an injection molding machine or a press formed into a plate of the desired thickness.

The cuff similar Photosensitive resin can be prepared, for example, according to a method of molding of the above photosensitive resin into a bow and winding and attaching the Bow around a sleeve, followed by heating to a temperature at least the softening point the photosensitive resin for welding the seam, successively followed by polishing with a grinder to make the seam disappear completely to let and increase at the same time the accuracy of the photosensitive cuff comprises or according to one Calendering process can be obtained.

When for forming a mask in the form of an image by removing the Infrared laser used on the photosensitive resin layer can those with a wavelength from 750 to 2000 nm. This type of infrared laser typically closes a semiconductor laser of 750 to 880 nm and Nd-YAG laser of 1060 nm. Both a this laser generating device as well as drive units are thus controlled by a computer, that the on the photosensitive resin formed infrared sensitive layer is selectively removed to the photosensitive structure for flexographic printing to convey a digital image information.

In in the case, if necessary, the infrared-sensitive layer restore, for example, in the case when in the step forming the infrared-sensitive layer on the surface of the photosensitive layer Resin due to contamination of the surface of the photosensitive Resin with foreign material failing to make the layer or in the case when the already formed infrared-sensitive layer damaged or in the case, if desired is to revise a pattern already imaged with a laser, Is it possible, a plate of photosensitive resin in such a way again produce that one Infrared-sensitive layer through the entire picture with a Infrared laser is removed and then another infrared sensitive again Layer is formed.

When Photohardening source the photosensitive resin layer of the photosensitive structure for flexographic printing used ultraviolet rays after completion of imaging with the laser For example, a high pressure mercury lamp, an ultraviolet fluorescent lamp, a carbon arc lamp, a xenon lamp and sunlight are listed. One desired Relief image can be obtained by using ultraviolet rays act from the image side.

Any one having the property of dissolving the photosensitive resin layer can be used as a developing solvent for washing off unexposed portions of the infrared-sensitive layer and Photosensitive resin layer after completion of irradiation of the photosensitive resin layer with ultraviolet rays is used to form the image, and for example, esters such as heptyl acetate and 3-methoxybutyl acetate, hydrocarbons such as petroleum fractions, limonene and decalin and chlorinated solvents such as tetrachlorethylene can be used.

Besides that is it allows mixing by mixing the solvent with an alcohol such as propanol, butanol and pentanol. Washing off both the infrared-sensitive layer and The unexposed parts can be through a jet through a nozzle or by brushing be done with a brush. The resulting printing plate is rinsed, dried and then by Post-exposure completed.

The The present invention will be described with reference to Examples and others illustrated.

example 1

An adhesive, MEGAM 11658 (trade name, manufactured by CHEMETALL (Germany)) was spray-coated at a wet coating rate of 120 g / m ² onto the outer surface of a 461.15 mm diameter nickel barrel with a length of 1250 mm and then Dried at 60 ° C for 15 minutes. The entire outer surface of the resulting pressure cuff was covered with TGI stocking (trade name, manufactured by Anderson & Freerant Co. (AV Flexologic Co.)) while the stocking was stretched so as to prevent the fibers from overlapping.

A short side of a sheet of a flexographic full plate of photosensitive Resin, AFP / HD-11 (trade name, manufactured by Asahi-Kasei Co., Plate thickness 3.18 mm, size 762 mm × 1016 mm) was to obtain a sheet of photosensitive resin with a size of 465.15 mm × 1016 mm cropped. A carrier film was removed by peeling off the sheet of photosensitive resin and then the remainder was tightly wrapped around the outside of the above-mentioned printing sleeve, So that the after removing the carrier film published surface was contacted in such a way that the side with 465.15 mm parallel to the circumference of the sleeve and as a result became a small gap between both sides with 1016 mm of the sheet of photosensitive resin observed. A self-adhesive tape was applied to the gap in the transverse direction, around both sides of the sheet of photosensitive resin close to each other to bring what the entire gap covered with the self-adhesive tape.

Successively A self-adhesive tape was applied to the TGI cover stocking to a part that was not covered with the photosensitive sheet and at both ends of the resulting pressure cuff occurred, cover firmly and further became another self-adhesive tape applied to one between both ends of the sleeve circumference and the pressure cuff parallel, cuff-like arc of photosensitive Harz observed gap to cover and as a result, an air leak between the cuff-like Sheet of photosensitive resin and the pressure sleeve prevented.

To the Evacuate the air between the above cuff-like Sheet of photosensitive resin and the printing sleeve through the opening of the TGI stocking was put on a vacuum, thereby binding between the cuff-like Sheet of photosensitive resin and the pressure sleeve was completed. During vacuum was applied, both ends of a PET film (a cover) on the surface of the cuff-like Photosensitive resin sheet with a cutting knife each 5 cm long in a direction parallel to the cuff circumference of the arch cut from photosensitive resin, another notching was also in a direction parallel to the axis of rotation of the pressure sleeve accordingly accomplished and then the PET film was removed by peeling. Farther was a possible on the surface of the photosensitive Resin left behind Sliding layer also by means of a self-adhesive tape by peeling away. Successively, under application of a vacuum between the sleeve-like sheet of photosensitive resin and the pressure sleeve the whole thing 20 minutes of a heat treatment at 130 ° C subjected to the seam of the cuff-like sheet of photosensitive Resin disappeared.

To removing the remaining self-adhesive tape, PET film and the Slip layer was the resulting seamless cuff made of photosensitive Resin mounted on a grinding machine SA6 / 2Ux200 (manufactured by Grinding Machine Co.) and polishes until the circumference of the cuff made of photosensitive resin reached 480 mm, causing the seam Completely disappeared.

During the The cuff made of photosensitive resin was rotated at 50 rpm with BEMCOT M-3 (trade name of a lint-free cleaning cloth, manufactured by Asahi-Kasei Co.) soaked in ethyl acetate, wiped off, removing polish residue and the roughness of the surface the photosensitive resin cuff has been alleviated, and as The result was a seamless cuff made of photosensitive resin receive.

One by kneading 60 parts by weight of TUFPREN 315 (trade name of a Styrene-butadiene block copolymer having a styrene content of 22%, manufactured by Asahi-Kasei Co.) and 40 parts by weight of carbon black with one Particle size of 30 nm, widely used COLOR BLACK # 30 (trade name, manufactured by Mitsubishi Chemical Corporation) was obtained with a kneader mixture in 3-methoxybutyl acetate to obtain a uniform liquid dissolved and dispersed at a solids concentration of 5% by weight. The liquid was filtered with a 300 mesh SUS and then with a candle filter SL-010 with a filter accuracy of 1 μ (trade name, manufactured by Roki Techno Co.) to give an infrared sensitive coating liquid was obtained.

The above, The photosensitive resin cuff formed seamlessly was used of soft chloroprene (1 mm thickness, 45 ° hardness) as squeegee rubber on one vertical ring coater (manufactured by TAKAGI CHOKOKU Co.) and the above-mentioned infrared-sensitive ones coating liquid was poured on the vertical ring coater until the Liquid surface one Height of 10 mm from the end of the photosensitive resin contacted Squeegee rubber reached. The infrared-sensitive coating liquid was applied to the photosensitive resin in such a manner that the Part of the coating device in which the coating liquid was lowered at a speed of 400 mm / min and then you left the coating Stand at room temperature for 30 minutes, whereby on the photosensitive resin a uniform, infrared-sensitive, free of defects such as small holes Layer was formed. In the room where the coating and Drying of the coated cuff at room temperature was only a slight smell of solvents perceived.

At The squeegee rubber used for coating immediately after the coating observed a slight swelling. By drying at room temperature, however, its original condition not only became in terms of touch, but also its form was restored and as a result became found that the Squeegee opposite a repeated use of at least 30 times coating was stable.

The with the infrared sensitive layer provided cuff made of photosensitive Resin was subjected to imaging using an infrared laser setting device, making a reliable image data reproducing photomask was formed.

The entire surface of the photosensitive resin cuff was exposed by means of a 12 mW / cm ² ultraviolet fluorescent lamp under an exposure of 4000 mJ / cm ^2, and thereafter washing the infrared sensitive layer and washing off the unexposed parts of the photosensitive resin layer with a brush Solvent mixture SOLVESSO 150 (trade name of a hydrocarbon produced by EXXON CHEMCAL CO.) / Benzyl alcohol = 4: 1 (in volume), followed by drying at 60 ° C for 1 hour, whereby a satisfactory seamless flexographic printing plate could be obtained.

The resulting cuffed flexographic printing plate was in a flexographic printing machine set up to perform a pressure and as a result could do a good printed matter with superior color saturation to be obtained.

Example 2

The entire cuff made of photosensitive resin, which is on one of similar to Example 1 Way had been formed seamlessly in cuff form and their photosensitive resin surface after polishing with a Schleifmaschi ne rough left was 30 minutes of heat treatment at 130 ° C subjected, while Continuously applied vacuum between the photosensitive resin layer and the sleeve has been. As a result, it was found that the surface of the sleeve like Photosensitive resin caused by the polishing Rudeness had been freed and mirrored.

Using the resulting, seamlessly formed photosensitive cuff Resin, coating with the infrared-sensitive coating liquid, infrared ray imaging, exposing, washing off the infrared-sensitive layer, washing away the unexposed part of the photosensitive resin layer, and drying were all carried out in a manner similar to that of Example 1, thereby obtaining a satisfactory seamless flexographic printing plate could.

The resulting cuffed flexographic printing plate was in a flexographic printing machine set up to perform a pressure and as a result could do a good printed matter with superior color saturation to be obtained.

Example 3

An infrared-sensitive coating liquid obtained in a similar manner to that of Example 1 was continuously coated on a cover, a polypropylene film having a thickness of 22 μm and a width of 1050 mm by means of a blade coater so that a coating width of 1016 mm and a coating rate of 3, respectively to 4 g (dry) / m ² , and then dried to obtain a film having an infrared-sensitive coating wound thereon in roll form.

The Resultant role from that with the above-mentioned infrared-sensitive coating liquid Coated cover was parallel to a seamless in cuff shape molded cuff made of photosensitive resin and placed on one similar to that of Example 1 Surface-treated, subsequently the roll was rolled out, both the width of the coating as also the width of the photosensitive resin sleeve (both 1016 mm) were adjusted and thereafter became an end part of the cover under exploitation the stickiness of the photosensitive resin temporarily so connected that the coated surface was in contact with the photosensitive resin layer.

Successively the cover was around the cuff made of photosensitive resin wrapped while the temporary bonded cover was pressed with a rubber roller with a smooth surface and the cuff was turned and used as the cover around the cuff made of photosensitive resin, the cover with a Slitter while leaving a supernatant of about 3 cm from Seam part cut from. After that, the cover was transferred the infrared-sensitive resin layer on the photosensitive Peeled off resin layer. Subsequently became the excess part deducted by hand from about 3 cm from the suture, rendering the infrared sensitive Coating film almost removed along a boundary of the seam could be, but there was still a lesser, out of the seam protruding part. This part was removed by means of a toothbrush cautiously rubbed for home use and as a result was on The photosensitive resin cuff provides a seamless, infrared-sensitive Layer provided.

Under Use the resulting, with the infrared sensitive Layered cuff made of photosensitive resin were the imaging by means of an infrared laser, exposure, washing the infrared-sensitive layer, washing off the unexposed part the photosensitive resin layer and drying each in a similar Carried out to that of Example 1, resulting in a satisfactory, seamless Flexographic printing plate could be obtained.

The resulting cuffed flexographic printing plate was in a flexographic printing machine set up to perform a pressure and as a result could do a good printed matter with superior color saturation to be obtained.

Comparative Example 1

One by kneading 65 parts by weight MACROMELT 6900 (trade name of a Polyamide, manufactured by HENKEL Co.) and 35 parts by weight of carbon black Particle size of 30 nm, widely used COLOR BLACK # 30 (trade name, manufactured by Mitsubishi Chemical Corporation) mixture obtained with a kneader was in a solvent from toluene / 1-propanol = 1: 1 (weight ratio) to obtain a uniform liquid dissolved and dispersed at a solids concentration of 8% by weight. The liquid was in the same manner as in Example 1 to obtain a filtered infrared-sensitive coating liquid.

The application of the infrared-sensitive coating liquid was carried out in the same manner as in Example 1, except that the above-mentioned coating liquid was used as infrared sensitive coating liquid was used. The resulting sleeve was allowed to stand at room temperature for 10 minutes, whereupon it was found that the infrared-sensitive layer formed on the surface of the photosensitive resin sleeve had defects such as pinholes in places.

In the room where the coating and drying at room temperature of the coated film became an exceptionally strong solvent odor perceived so that it difficult to work in there for a long time.

The Squeegee rubber used for coating ended up in a strong swelling deformation and was not restored even after evaporation of the solvent, its surface was for the touch sandy and its hardness was exceptionally elevated and as Result was found that it impossible was to use it several times.

Under Use the resulting, with the infrared sensitive Layered cuff made of photosensitive resin was since imaging by means of an infrared laser, exposure, washing the infrared-sensitive layer, washing off the unexposed part the photosensitive layer and drying in the same manner as carried out in example 1, according to which pointwise pictures were found, where von Nature was not a picture, for example a non-picture part. To this Way, no satisfactory printed matter could be obtained.

Example 4

Under Use different solvents and binder polymers for the infrared-sensitive coating liquid became as shown in Table Figure 1 illustrates each seamless printing plate according to the method of the example 1 received.

Table 1

annotation

• * 1 solvent #A: 3-methoxybutyl acetate B: heptyl acetate C: cyclohexyl acetate D: Benzyl acetate E: 3-methoxybutyl acetate: toluene = 45: 65 (weight ratio)
• * 2 Binder polymer #A: TAFPREN 315 (trade name of a styrene-butadiene block copolymer) B: KRATON D1107CP (a trade name of a styrene-isoprene block copolymer having a styrene content of 14% by weight, manufactured by SHELL CHEMICAL C .; CAB-381-0.1 (a trade name of cellulose acetate butylate, manufactured by Kodak Co.)

INDUSTRIAL APPLICABILITY

In a method for obtaining a flexographic printing plate suitable for a plate-making process in which an image of digital information is directly drawn by an infrared laser without the use of a negative film, according to the present invention, there is provided a process for obtaining a seamless, photosensitive printing plate having superior color saturation That is, an infrared-sensitive layer can be formed without defects such as minute holes even on a photosensitive resin surface with a roughness caused by polishing with a grinder, the repeated use of a squeegee rubber in the case of performing a coating with a ring coating apparatus as a means for applying an infrared-sensitive coating liquid can be made possible, the working environment in a coating step for providing an infrared-sensitive layer can be improved, and further the roughness of a photosensitive resin surface caused by polishing with a sander can be alleviated.

Claims (9)

A coating liquid suitable for providing an infrared sensitive layer on a photosensitive resin surface obtainable by dissolving or dispersing a binder polymer soluble in a solvent as defined below, an infrared absorbing substance and, if desired, a non-infrared opaque substance in a solvent represented by the general formula (A) R ¹ COOR ² (A) wherein R ^{1 is} CH ₃ or C ₂ H ₅ and R ^{2 is} an alkyl group represented by -C _n H _{2n + 1} , wherein n is an integer of 6 to 10, represented by -C ₆ H ₁₀ X. substituted or unsubstituted cycloalkyl group wherein X is H or an alkyl group having 1 to 4 carbon atoms, an aralkyl group represented by -C _n H _2n Ar, wherein Ar is an aromatic group and n is 1 or 2, or a - (C _n H _2n O) _a C _m H _{2m + 1} is alkoxypolyalkoxyalkylenyl group wherein n is an integer from 2 to 6, m is an integer from 1 to 4 and a is 1 or 2, provided that a / (na + m) ≦ ¼. coating liquid according to claim 1, wherein the ester solvent represented by the general formula (A) at least 50% by weight of the solvent accounts. A coating liquid according to claim 1 or 2, wherein the ester solvent is represented by the general formula (B) CH ₃ COOR ³ (B) wherein R ^{3 is} an alkoxyalkylenyl group represented by -C _n H _2n OC _m H _{2m + 1} wherein n is an integer of 2 to 6 and m is an integer of 1 to 4. coating liquid according to claim 1, wherein the binder polymer is a thermoplastic elastomer that is, by polymerizing a monovinyl substituted aromatic Hydrocarbon and a conjugated diene was obtained. coating liquid according to claim 1 or 2, wherein the represented by the general formula (A) Esterlösungsmittel from heptyl acetate, 2-ethylhexyl acetate, 3,5,5-trimethylhexyl acetate, Heptyl propionate, 2-ethylhexyl propionate, cyclohexyl acetate, ethylcyclohexyl acetate, t-butyl cyclohexyl acetate, cyclohexyl propionate, benzyl acetate, benzyl propionate, 2-phenylethyl acetate, 3-methoxybutyl acetate, 3-methoxybutyl propionate, 3-methoxy-3-methylbutyl acetate, 2-butoxyethyl acetate, 2-butoxybutyl acetate, 4-butoxybutyl acetate and 4- (4'-methoxybutoxy) butyl acetate existing group selected is. Method of obtaining a seamless sleeve printing plate photosensitive resin comprising laminating a layer of a photosensitive resin on a sleeve, performing a Treatment for the disappearance of the seam, polishing the surface of the photosensitive resin with a grinding machine to thereby the seam completely make disappear, providing an infrared sensitive layer, Forming a mask by means of a drawing with an infrared laser, Carry out an image exposure through the mask and then performing a Development includes wherein the infrared-sensitive layer by direct coating the coating liquid according to claim 1 on the surface of the photosensitive resin is provided. A method of obtaining a photosensitive resin seamless sleeve printing plate which comprises laminating a photosensitive resin layer on a sleeve, performing a seam-over treatment, polishing the surface of the photosensitive resin with a sander to thereby completely eliminate the seam allowing, providing an infrared-sensitive layer, forming a mask by means of a drawing with an infrared laser, performing an image exposure through the mask, and then performing a development wherein a film is previously formed from the coating liquid according to claim 1, the film under lamination cylindrically wound around the surface of the photosensitive resin in the circumferential direction and only the overlapping part of the seam is removed to obtain a seamless infrared-sensitive layer. Method according to claim 6 or 7, which includes a step of treating the photosensitive resin surface with a solvent with a solubility for the photosensitive resin between the step of polishing with a Grinding machine and the step of providing the infrared-sensitive Layer includes. Method according to claim 6 or 7, which includes a step of heating to a temperature of at least the Softening point of the photosensitive resin between the step polishing with a grinding machine and the providing step the infrared sensitive layer.